Mapping the historical ecology and reconstructing historical flora of the lower Bronx River: a guide ecosystem restoration and outreach Mapping the historical ecology and reconstructing the historical flora of the lower Bronx River: a guide for ecosystem restoration and outreach Eric W. Sanderson and Danielle LaBruna, of the Wildlife Conservation Society. With contributions from Barbara Thiers and Melissa Tulig of the New York Botanical Garden and Linda Cox, Teresa Crimmens and Anne-Marie Runfola of the Bronx River Alliance. A technical report of the Wildlife Conservation Society. This report is based on a collaborative project of the Wildlife Conservation Society, the New York Botanical Garden and the Bronx River Alliance, funded by a WCS-NOAA Regional Partnership Grant for Community-Led Restoration of the lower Bronx River. This work forms part of the Mannahatta Project, a project to scientifically understand, describe and visualize the wild landscape that would come to be New York City at the moment before Henry Hudson’s arrival on September 12, 1609. December 2005 © Wildlife Conservation Society, 2005. All photos and maps credits to Eric W. Sanderson or Danielle T. LaBruna, except where noted. Copies of this report and the derived GIS layers can be obtained on the web at wcs.org/mannahatta Contact Information: Eric W. Sanderson Associate Director, Living Landscapes Program Wildlife Conservation Society 2300 Southern Blvd. Bronx NY 10460 USA Phone: 1-718-220-6825 Email: [email protected] 2 ACKNOWLEDGEMENTS This study was directly supported by the WCS-NOAA Lower Bronx River Partnership: Community-Led Restoration of the lower Bronx River to Eric W. Sanderson, Living Landscapes Program, Wildlife Conservation Society. The Wildlife Conservation Society, the Prospect Hill Foundation and the ESRI Conservation Program provided further support through general assistance to the Living Landscapes Program. The study was conducted in collaboration with Barbara Thiers and Melissa Tulig from the New York Botanical Garden, for the plant list reconstruction, and Linda Cox, Anne-Marie Runfolo and Teresa Crimmins at the Bronx River Alliance, for the Walk the Watershed event. Marit Larsen of the New York City Parks – Natural Resources Group provided valuable input. Lori Cohen, a student at the Center for Environmental Research and Conservation at Columbia University, completed a class project on historical archive material related to the Bronx River that contributed to this study. Thomas Veltre of the Wildlife Conservation Society and Stephen McDevitt of the US Army Corps of Engineers kindly provided maps for this study. The expert map librarians at the British Library, The National Archives, the Library of Congress, the Clements Library, and the New York Public Library were uniformly helpful and professional. Key geographic information system data layers were obtained through the New York State GIS Clearinghouse under arrangement with the Wildlife Conservation Society. Gillian Woolmer and Gosia Bryja provided advice on the geographic information system (GIS) analysis. Daneille LaBruna performed most of the GIS analysis herein; Tim Bean and Michelle Brown also assisted the analysis. Amy Vedder provided institutional support and guidance. Yemi Tessema, Nick Raitelu and Kristine Barrett provided administrative and logistical support. Marla Krauss administered the grant. Approximately 50 community members turned out to “Walk the Watershed” with us in 2004 and 2005 and share their stories about the Bronx River. We thank all for their help and support. i INSTITUTIONAL MISSION STATEMENTS WILDLIFE CONSERVATION SOCIETY The Wildlife Conservation Society saves wildlife and wild lands. We do so through careful science, international conservation, education, and the management of the world’s largest system of urban wildlife parks, led by the flagship Bronx Zoo. Together, these activities change individual attitudes toward nature and help people imagine wildlife and humans living in sustainable interaction on both a local and a global scale. WCS is committed to this work because we believe it essential to the integrity of life on Earth. THE NEW YORK BOTANICAL GARDEN The New York Botanical Garden is an advocate for the plant kingdom. The Garden pursues its mission through its role as a museum of living plant collections arranged in gardens and landscapes across its National Historic Landmark site; through its comprehensive education programs in horticulture and plant science; and through the wide-ranging research programs of The International Plant Science Center. THE BRONX RIVER ALLIANCE The mission of the Bronx River Alliance is to serve as a coordinated voice for the river and work in harmonious partnership to protect, improve and restore the Bronx River corridor and greenway so that they can be healthy ecological, recreational, educational and economic resources for the communities through which the river flows. ii The Mannahatta Project On a hot, fair day, the 12th of September 1609, Henry Hudson and a small crew of Dutch and English sailors rode the flood tide up a great estuarine river past a long, wooded island at 40° 48’ latitude on the North American continent. At the time, Hudson noted the land was “as pleasant as one need tread upon” and his first mate, Robert Juet, wrote that the land was “as pleasant with Grasse and Flowers, and goodly Trees, as ever they had seene, and very sweet smells came from them.” Subsequent European visitors over the next decade found the island “a convenient place abounding with grass” and “a land excellent and agreeable, full of noble forest trees and grape vines.” This island was called Mannahatta by the Lenni Lenape people who lived there, or ‘land of many hills.’ It would later become known as Manhattan Island and would become as densely filled with people and avenues as it was once with trees and streams. The aim of the Mannahatta Project is to reconstruct the ecology of New York City when Henry Hudson first sailed by in 1609 and compare it to what we know today. The Mannahatta Project will help us to understand, down to the level of one city block, where in Manhattan streams once flowed, where American Chestnuts may have grown, where black bears once marked territories, and where the Lenape fished and hunted. Most history books dispense of the pre-European history of New York in only a few pages. However with new methods in geographic analysis and the help of a remarkable 18th century map (right), we will discover a new aspect of New York culture, the amazing environmental foundation of the city. Expected Results • A baseline geographic reconstruction of New York City ecology to guide restoration efforts in and around the city. • Education activities for children and adults about the history, ecology and geography of Manhattan Island, its past, present and future, including • A coffee table book with transparent overlays that compares the landscape of Manhattan Island in 1609 to the modern cityscape; • Exhibits at Wildlife Conservation Society wildlife parks and other NYC institutions; • Multimedia educational outreach including a CD-ROM and web site accessible to all New Yorkers • Joint research and education activities between New York cultural and natural history institutions led by the Wildlife Conservation Society. For more information, contact Dr. Eric W. Sanderson, Wildlife Conservation Society, 2300 Southern Blvd., Bronx NY 10460. Phone 718-220-6825. Fax 718-364-4275. Email: Figure 1. The British [email protected] Headquarters Map of 1782, courtesy The National Archives, London. iii TABLE OF CONTENTS Acknowledgments i Institutional Missions ii The Mannahatta Project iii Table of Contents iv Executive Summary 1 Chapter 1. Mapping the historical ecology of the lower Bronx River watershed 2 Chapter 2. Reconstructing the historical plant composition of the lower Bronx River watershed 24 Chapter 3: Walking the watershed: environmental outreach based on historical ecology in an urban setting 33 Appendix 1. Notes on selected 18th, 19th and early 20th century maps of the Bronx, examined for their relevance to the historical ecology of the Bronx River 46 Appendix 2. Putative list of plants historically found in the lower Bronx River watershed and other parts of New York City 72 Appendix 3: Sample flyer for the Walk the Watershed event 126 Appendix 4: Geographic Information System (GIS) layers of the historical distribution of ecosystems in the lower Bronx River watershed (CDROM) Back pocket iv EXECUTIVE SUMMARY Imagining ecosystem restoration of the lower Bronx River requires not only knowing what exists, but what is possible. One way to appreciate the possibilities is to refer to the past, when the Bronx River knitted together a remarkable, biologically diverse and highly productive mosaic of salt marshes, intertidal flats, riverine floodplains and upland communities. Although the past can never be known in detail, techniques of historical ecology and examination of old maps, surveys and other documents can shed some light on the past distribution and composition of ecosystems along the river, in contrast to today. These results provide reference conditions for restoration and a vehicle for reaching out to the community to build support for river restoration. Chapter 1: Mapping the historical ecology of the lower Bronx River watershed The spatial distribution of past ecosystems in the lower Bronx River watershed is revealed partially in historical maps from the American Revolution through to the rapid, late 19th century development of the Bronx. Six maps were georeferenced to a common coordinate system and interpreted to develop a synthesized map of the ecosystem distribution of the lower Bronx River prior to modern development. These maps indicate that the lower Bronx River watershed covered approximately 16 km2 area, of which approximately 70% was covered by upland vegetation, mainly forest, 27% wetlands, including extensive salt marshes, and 3% open water. Over 80 historical maps are reviewed for their relevance to Bronx River restoration (Appendix 1.) A CDROM with geographic information system data layers describing the historical distribution of ecosystems is provided with this report (Appendix 4).
Details
-
File Typepdf
-
Upload Time-
-
Content LanguagesEnglish
-
Upload UserAnonymous/Not logged-in
-
File Pages132 Page
-
File Size-